# Calling a Property or Method Using a String Name (Visual Basic)

In most cases, you can discover the properties and methods of an object at design time, and write code to handle them. However, in some cases you may not know about an object's properties and methods in advance, or you may just want the flexibility of enabling an end user to specify properties or execute methods at run time.

## CallByName Function

Consider, for example, a client application that evaluates expressions entered by the user by passing an operator to a COM component. Suppose you are constantly adding new functions to the component that require new operators. When you use standard object access techniques, you must recompile and redistribute the client application before it could use the new operators. To avoid this, you can use the CallByName function to pass the new operators as strings, without changing the application.

The CallByName function lets you use a string to specify a property or method at run time. The signature for the CallByName function looks like this:

Result = CallByName(Object, ProcedureName, CallType, Arguments())

The first argument, Object, takes the name of the object you want to act upon. The ProcedureName argument takes a string that contains the name of the method or property procedure to be invoked. The CallType argument takes a constant that represents the type of procedure to invoke: a method (Microsoft.VisualBasic.CallType.Method), a property read (Microsoft.VisualBasic.CallType.Get), or a property set (Microsoft.VisualBasic.CallType.Set). The Arguments argument, which is optional, takes an array of type Object that contains any arguments to the procedure.

You can use CallByName with classes in your current solution, but it is most often used to access COM objects or objects from .NET Framework assemblies.

Suppose you add a reference to an assembly that contains a class named MathClass, which has a new function named SquareRoot, as shown in the following code:

Class MathClass
Function SquareRoot(ByVal X As Double) As Double
Return Math.Sqrt(X)
End Function
Function InverseSine(ByVal X As Double) As Double
Return Math.Atan(X / Math.Sqrt(-X * X + 1))
End Function
Function Acos(ByVal X As Double) As Double
Return Math.Atan(-X / Math.Sqrt(-X * X + 1)) + 2 * Math.Atan(1)
End Function
End Class


Your application could use text box controls to control which method will be called and its arguments. For example, if TextBox1 contains the expression to be evaluated, and TextBox2 is used to enter the name of the function, you can use the following code to invoke the SquareRoot function on the expression in TextBox1:

Private Sub CallMath()
Dim Math As New MathClass
Me.TextBox1.Text = CStr(CallByName(Math, Me.TextBox2.Text,
Microsoft.VisualBasic.CallType.Method, TextBox1.Text))
End Sub


If you enter "64" in TextBox1, "SquareRoot" in TextBox2, and then call the CallMath procedure, the square root of the number in TextBox1 is evaluated. The code in the example invokes the SquareRoot function (which takes a string that contains the expression to be evaluated as a required argument) and returns "8" in TextBox1 (the square root of 64). Of course, if the user enters an invalid string in TextBox2, if the string contains the name of a property instead of a method, or if the method had an additional required argument, a run-time error occurs. You have to add robust error-handling code when you use CallByName to anticipate these or any other errors.

Note

While the CallByName function may be useful in some cases, you must weigh its usefulness against the performance implications — using CallByName to invoke a procedure is slightly slower than a late-bound call. If you are invoking a function that is called repeatedly, such as inside a loop, CallByName can have a severe effect on performance.